Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.13 (protein kinase C)
 49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Alpha-Tocopherol (vitamin E) protects against free radical damage, which has been implicated in aging, cancer initiation, and atherosclerosis. We have found that physiological concentrations of alpha-tocopherol specifically inhibited aorta smooth muscle cell (VSMC, line A7r5) proliferation and protein kinase C (PKC) activity. Other water and lipid soluble antioxidants were inactive. alpha-Tocopherol inhibition of PKC and of VSMC proliferation may represent a physiological mechanism, relevant to the onset of diseased states such as atherosclerosis.
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PMID:Alpha-tocopherol (vitamin E) regulates vascular smooth muscle cell proliferation and protein kinase C activity. 189 54

The effects of cholecystokinin (CCK) and other pancreatic secretagogues on phosphatidylcholine (PC) synthesis were studied in isolated rat pancreatic acini. When acini were incubated with [3H] choline in the presence of 1 nM CCK-octapeptide (CCK8) for 60 min, the incorporations of [3H] choline to both water soluble choline metabolites and PC in acini were reduced by CCK8 to 74% and 41% of control, respectively. Pulse-chase study revealed that CCK reduced both the disappearance of phosphocholine and the synthesis of PC. Ca(2+)-mobilizing secretagogues such as carbamylcholine and Ca2+ ionophore A23187 also reduced PC synthesis to the same extent as CCK8. By contrast, neither cAMP-dependent secretagogues such as secretin and dibutyryl cAMP nor a phorbol ester had any effect on PC synthesis in acini. These results suggest that CCK inhibits PC synthesis by inducing both the reduction of choline uptake into acini and the inhibition of CTP: phosphocholine cytidylyltransferase activity. This hormonal regulation of PC synthesis via CDP-choline pathway appears to be mediated by Ca(2+)-dependent pathway but not by cAMP- or protein kinase C-dependent pathway.
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PMID:[The inhibitory effect of cholecystokinin on phosphatidylcholine synthesis in isolated rat pancreatic acini]. 192 Sep

We showed previously that glomerular mesangial cells displayed increased fibronectin, laminin, and type IV collagen synthesis and mRNA levels when grown in medium containing 30 mM glucose compared with those cells grown in 10 mM glucose [S. H. Ayo, R. A. Radnik, W. F. Glass II, J. A. Garoni, E. R. Rampt, D. R. Appling, and J. I. Kreisberg. Am. J. Physiol. 260 (Renal Fluid Electrolyte Physiol. 29): F185-F191, 1990]. However, total protein synthesis and actin mRNA were unchanged. In this report, we show that an increase in medium glucose concentration resulted in an increase in diacylglycerol (DAG) mass and transiently increased protein kinase C (PKC) activity as assessed by the translocation of PKC from the soluble to the particulate fraction. Effects of increased glucose on DAG were evident at 30 min and were maintained through 1 wk of growth in medium containing 30 mM glucose. Although total PKC activity (i.e., soluble plus particulate fractions) did not change with high-glucose treatment, the percent activity associated with the particulate fraction (i.e., activated PKC) increased significantly after 60 min in RPMI 1640 medium with 30 mM glucose. The distribution of PKC returned to control values by 24 h. High glucose did not stimulate phosphoinositide hydrolysis, as evidenced by the absence of an increase in the water-soluble inositol phosphates, indicating that DAG was not generated through the action of a phosphoinositide-specific phospholipase C. Cells treated with the cell-permeable DAG analogue 1-oleoyl-2-acetyl glycerol to activate PKC displayed approximately two-fold increases of fibronectin, laminin, and type IV collagen mRNA levels after normalization against actin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:High glucose increases diacylglycerol mass and activates protein kinase C in mesangial cell cultures. 192 72

Although active transport of ions could play an important role in the resolution process of pulmonary edema, the exact mechanism regulating this process is still unknown. In this study, we investigated the effect of phorbol myristate acetate (PMA) on lung liquid clearance in anesthetized, ventilated sheep to evaluate the possible role of protein kinase C. To study lung liquid and protein clearance, we measured the removal of 100 ml of autologous serum from the air spaces of anesthetized sheep. Either serum alone or serum mixed with PMA (10(-7) M) was instilled. After 4 h, the residual lung water was 76.8 +/- 9.2 ml when serum alone was instilled and 79.5 +/- 15.7 when serum with PMA (10(-7) M) was instilled. The lack of effect of PMA (10(-7) M) on lung liquid clearance cannot be explained by increased movement of liquid from the vascular space to the air space since we did not have any evidence of increased pressure or increased permeability in the lung. This lack of effect of PMA (10(-7) M) is not due to an absence of stimulation of protein kinase C since instillation of BSA and PMA (10(-7) M) in rat lung produced a translocation of protein kinase C activity from the cytosolic fraction to the membrane fraction 2 h after the instillation. These results were confirmed in two sheep experiments, which demonstrated clear activation of protein kinase C after 4 h. These data suggest that activation of protein kinase C does not stimulate lung liquid clearance. However, a possible role of protein kinase C in modulating lung liquid clearance has not been excluded.
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PMID:Protein kinase C activation does not stimulate lung liquid clearance in anesthetized sheep. 195 36

Osmotic water permeability (Pf) in toad bladder is regulated by the vasopressin (VP)-dependent movement of vesicles containing water channels between the cytoplasm and apical membrane of granular cells. Apical endosomes formed in the presence of serosal VP have the highest Pf of any biological or artificial membrane (Shi and Verkman. 1989. J. Gen. Physiol. 94:1101-1115). We examine here: (a) the influence of protein kinase A and C effectors on transepithelial Pf (Pfte) in intact bladders and on the number and Pf of labeled endosomes, and (b) whether endosome Pf can be modified physically or biochemically. In paired hemibladder studies, Pfte induced by maximal serosal VP (50 mU/ml, 0.03 cm/s) was not different than that induced by 8-Br-cAMP (1 mM), forskolin (50 microM), VP + 8-Br-cAMP, or VP + forskolin. Pf was measured in endosomes labeled in intact bladders with carboxyfluorescein by a stopped-flow, fluorescence-quenching assay using an isolated microsomal suspension; the number and Pf (0.08-0.11 cm/s, 18 degrees C) of labeled endosomes was not different in bladders treated with VP, forskolin, and 8-Br-cAMP. Protein kinase C activation by 1 microM mucosal phorbol myristate acetate (PMA) induced submaximal bladder Pfte (0.015 cm/s) and endosome Pf (0.022 cm/s) in the absence of VP, but had little effect on maximal Pfte and endosome Pf induced by VP. However, PMA increased by threefold the number of apical endosomes with high Pf formed in response to serosal VP. Pf of endosomes containing the VP-sensitive water channel decreased fourfold by increasing membrane fluidity with hexanol or chloroform (0-75 mM); Pf of phosphatidylcholine liposomes (0.002 cm/s) increased 2.5-fold under the same conditions. Endosome Pf was mildly pH dependent, strongly inhibited by HgCl2, but not significantly altered by GTP gamma S, Ca, ATP + protein kinase A, and phosphatase action. We conclude that: (a) water channels cycled in endocytic vesicles are functional and not subject to physiological regulation, (b) VP and forskolin do not have cAMP-independent cellular actions, (c) activation of protein kinase C stimulates trafficking of water channels, but does not increase the number of apical membrane water channels induced by maximal VP, and (d) water channel function is sensitive to membrane fluidity. By using VP and PMA together, large quantities of endosomes containing the VP-sensitive water channel are labeled with fluid-phase endocytic markers.
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PMID:Regulation of the formation and water permeability of endosomes from toad bladder granular cells. 197 9

The potential of lipid monolayers spread at an air-water interface was investigated as a well defined membrane model able to support protein kinase C (PKC) association and activation. PKC association to a mixed phospholipid film (phosphatidylcholine, phosphatidylserine) could be detected by an increase of the monolayer surface pressure. This association was strikingly dependent upon the presence of submicromolar concentrations of Ca2+. The effect of Ca2+ resulted in an increase of the PKC penetration into the lipid core at a given permissive surface pressure as well as in a marked increase of the critical surface pressure (29-38 dynes/cm) above which the enzyme was excluded from the membrane. Inclusion of diacylglycerol or tetradecanoate phorbol acetate (TPA) did not modify the PKC-monolayer association in a detectable manner. PKC associated to the lipid layer exhibited the expected catalytic property and was fully activated when diacylglycerol or TPA was included in the membrane. PKC activity was highly dependent upon the surface pressure of the lipid monolayer, being optimal between 30 and 35 dynes/cm. Study of the compression isotherm of various diacylglycerol structures revealed that all potent PKC agonists exhibited an expanded liquid phase behavior with collapse pressure below 40 dynes/cm, in contrast to weak activators which showed condensed isotherms with high collapse pressure (approximately equal to 60 dynes/cm). These observations showed that the lipid monolayer system is well adapted to the study of the molecular mechanisms involved in the regulation of PKC activity at a model membrane interface. They are in line with the suggestion of a major role of Ca2+ in the association (translocation) of PKC to membrane in living cell and suggest that diacylglycerol (and TPA) might activate membrane-associated PKC through local change in the surrounding lipid phase organization.
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PMID:Activation of protein kinase C in lipid monolayers. 198 9

The Na(+)-dependent transport and facilitated diffusion of uridine were measured after differentiation of HL-60 leukaemia cells along the monocytic pathway by phorbol 12-myristate 13-acetate (PMA). PMA (200 ng/ml) caused a marked increase in Na(+)-dependent uridine transport within 48 h of exposure that was attributable to an increase in transport affinity (apparent Km values of 1.15 +/- 0.22 and 44 +/- 4.4 microM for PMA-induced and uninduced cells respectively), with no change in Vmax. (0.15 +/- 0.02 and 0.13 +/- 0.01 pmol/s per microliter of cell water for PMA-induced and uninduced cells respectively). A corresponding rapid decrease in both the rate of facilitated diffusion and the formation of uracil nucleotides occurred in PMA-induced cells. As a consequence of these changes, intracellular pools of uridine 3-4-fold greater than those in the medium were generated. A similar increase in Na(+)-dependent transport of adenosine, inosine, guanosine, thymidine and cytidine (Km values of 1-4 microM) was observed. The effects of PMA on the activation of the Na(+)-dependent uridine transporter were inhibited by staurosporine, suggesting the involvement of protein kinase C. The findings indicate that a change in the balance of the cellular mechanisms employed for nucleoside transport occurs during the monocytic differentiation of HL-60 leukaemia cells.
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PMID:Induction of the differentiation of HL-60 cells by phorbol 12-myristate 13-acetate activates a Na(+)-dependent uridine-transport system. Involvement of protein kinase C. 200 Dec 55

The possible involvement of protein kinase C and Ca2+ metabolism in the proteolytic enzyme release from schistosome cercariae was studied. Cercariae were placed in dechlorinated tap water containing 0.37 mM calcium in the small glass petri dish and exposed to the stimuli (linoleic acid, phorbol esters, and Ca2+ ionophore) with or without inhibitors of protein kinase C or Ca2+ metabolism. The proteolytic activity of incubation medium of cercariae thus treated was measured by the azocoll assay. The penetration response of cercariae induced by linoleic acid, a physiological stimulus, was mimicked by phorbol esters. When exposed to phorbol esters, 0.02 to 2 microM of 12-O-tetradecanoylphorbol-13-acetate (TPA) and 0.2 to 2 microM of phorbol-12,13-dibutyrate (PDBu), cercariae ceased the swimming movement, began a rhythmic thrusting of the anterior tip of the parasite, and released the proteolytic enzyme, but they did not shed the tails. Lowering Ca2+ in water by addition of 5 mM ethylene glycol-bis(beta-aminoethyl ether) N,N,N',N'-tetraacetic acid (EGTA), phorbol ester-induced release of enzyme was completely inhibited. Phorbol ester-induced release of enzyme was partially inhibited by 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H-7), an inhibitor of protein kinase C, at a concentration of 100 microM. H-7 alone, at a concentration of 100 microM, did not affect the swimming movement of cercariae. The cercariae were stimulated to release the enzyme by high concentrations (10 and 100 microM) of the Ca2+ ionophore, A23187, but enzyme was not released by low concentrations (0.5 and 1 microM) of this drug. Cercariae exposed to A23187 behaved differently from those exposed to phorbol esters. They ceased swimming, showed strong muscle contraction, and shed their tail. A23187 stimulated cercariae to release the enzyme in the water containing 5 mM EGTA. A23187-induced enzyme release was not inhibited by N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide (W-7), a calmodulin antagonist, trifluoperazine (TFP), a better calmodulin antagonist on schistosome, or by verapamil, a Ca2+ channel blocker. Linoleic acid-induced release of enzyme was partially inhibited by 0.5 and 5 mM of EGTA and by 1 to 100 microM of H-7. While it was not inhibited by N-[2-(methylamino)ethyl]-5-isoquinolinesulfonamide (H-8) and N-(2-guanidinoethyl)-5-isoquinolinesulfonamide (HA-1004), inhibitors of cyclic nucleotide-dependent protein kinase which were used as negative controls of H-7, W-7, TFP, 8-(N,N-diethylamino)octyl 3,4,5-trimethoxybenzoate (TMB-8), an intracellular Ca2+ antagonist, and verapamil.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Schistosoma mansoni: possible involvement of protein kinase C in linoleic acid-induced proteolytic enzyme release from cercariae. 201 70

Ethanol and other alcohols have been shown to specifically stimulate phospholipase-D-mediated hydrolysis of phosphatidylethanolamine (PtdEtn) in NIH 3T3 fibroblasts. Here, we further examined the possible mechanism of this ethanol action. Ethanol (10-300 mM) and the protein kinase C (PKC) activator 12-O-tetradecanoyl-phorbol 13-acetate (TPA) had synergistic stimulatory effects on the degradation of preformed [14C]PtdEtn when added in combination to [14C]ethanolamine-labelled suspended NIH 3T3 cells 30 min after collection of cells by scraping. Scraping caused a transient increase, lasting for less than 30 min, in the cellular content of 1,2-diacylglycerol, another PKC activator. Initially (0-50 min incubation), the main water-soluble product of [14C]PtdEtn degradation in ethanol plus TPA-treated cells was [14C]ethanolamine, while later (90 min) the main product of [14C]PtdEtn hydrolysis was [14C]ethanolamine phosphate in the presence of these agents. Ethanol also potentiated the specific stimulatory effects of sphingosine (through phospholipase D) and 4-hydroxynonenal (not involving phospholipase D) on PtdEtn hydrolysis. The effects of these latter agents were unrelated to PKC activation. These data indicate that the observed potentiating effects of ethanol on PtdEtn hydrolysis do not involve direct regulation of PKC or phospholipase D activities.
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PMID:Ethanol potentiates the stimulatory effects of phorbol ester, sphingosine and 4-hydroxynonenal on the hydrolysis of phosphatidylethanolamine in NIH 3T3 cells. 202 7

Exposure to antigen (Ag) caused a biphasic 1,2-diacylglycerol (DG) production in [3H]myristic acid-labeled RBL-2H3 cells; the early, small transient phase and the second large sustained phase. The accumulation of phosphatidic acid (PA) or phosphatidylethanol (PEt) in the presence of ethanol was paralleled by the second-phase DG generation. Ag-induced formation of phosphocholine and choline in [3H]choline-labeled cells suggested the hydrolysis of phosphatidylcholine (PC) by phospholipases C and D. Treatment with phorbol myristate (PMA) or A23187 caused increases in [3H]DG and water-soluble [3H]choline metabolites. In protein kinase C (PKC) down-regulated cells, PEt formation was markedly reduced. In these cells DG production induced by Ag and A23187 was largely suppressed, thus indicating that PKC would play an important regulatory role for PC hydrolysis. However, because the A23187 treatment showed significant accumulation of water-soluble choline metabolites in PKC down-regulated cells, an increase in intracellular Ca2+ is another factor regulating PC hydrolysis. Taken together, these results may indicate that PC hydrolysis in response to Ag is dependent on PKC and Ca2+.
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PMID:Antigen-induced biphasic diacylglycerol formation in RBL-2H3 cells: the late sustained phase due to phosphatidylcholine hydrolysis is dependent on protein kinase C. 204 19


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